Machine for splicing rubber articles



1953 A. B. CLAYTON ETAL MACHINE FOR SPLICING RUBBER ARTICLES 8 Sheets-Sheet. 1

Filed Oct. 23, 1951 ATTORNEY.

GII'Q G If!" INVENTOR ALFRED B. CLAYTON y THOMAS o. HALE gm/24W Q) GHQ Nov. 24, 1953 AB. CLAYTON ET AL MACHINE FOR SPLICING RUBBER ARTICLES 8 Sheets-Sheet 2 Filed st; 25, 1951 INVENTOR. ALFRED B. CLAYTON y THOMAS o. HA LE ATTORNEY.

Nov. 24, 1953- A. B. CLAYTON ET AL ,6 6

MACHINE FOR SPLICING RUBBER ARTICLES Filed 001;. 25, 1951 s Sheets-Sheet :5

IN V EN TOR. l5 ALFRED B. CLAYTON y THOMAS O. HALE' 1337.6 \QMWniM.

' ATTORNEY.

Nov. 24, 1953 A. B. CLAYTON ETAL 2,660,216

MACHINE FOR SPLIQING RUBBER ARTICLES Filed Oct. 25, 1951 8 Sheets-Sheet 4 57 Ill '7 r 5a ATTORNEY NOV. 53 Y A. B. CLAYTON ET AL 2,660,216

MACHINE. FOR SPLICING RUBBER ARTICLES Filed Oct. 25, 1951 s Sheets-Sheet 5 INVENTOR. ALFRED B. CLAYTON y THOMAS o. HALE ATTORNEY.

N 1953 A. B. CLAYTON ET AL 0,

MACHINE FOR SPLICING RUBBER ARTICLES Fi led Oct. 23, 1951 s Sheets-Shet 6 I8 20 I I H 56 52 5| 55 "lhh 1'" 59 l9 60 INVENTOR.

V ALFRED B. CLAYTON y THOMAS O. HALE 17 16 JAM/fa ATTORNEY.

Nov. 24, 1953 A. B. CLAYTON ET AL MACHINE FOR SPLICING RUBBER ARTICLES 8 Sheets-Sheet 7 -Fi]:ed Oct. 25, 1951 INVENTOR. ALFRED B. CLAYTON THOMAS O.-HALE qimzzzw ATTORNEY.

Nov. '24, 1953 A. B. CLAYTON ET AL 2,660,216

' MACHINE FOR spucmc RUBBER ARTICLES Filed Oct. 25, 1951 a Sheets-Sheet a yin INVENTOR. ALFRED B.C-LAYTON y THOMAS C. HALE 27 aZm/iziw ATTORNEY.

Patented Nov. 24, 1953 iJNITED STATES MACHINE FOR SPLICING RUBBER ARTICLES New Jersey Application October 23, 1951, Serial No. 252,722

6 Claims. i

This invention relates to improvements in machines for splicing rubber articles and in particular it relates to improvements in a machine for joining together the ends of a length of tubular rubber stock to form an inner tube.

It is one object of the present invention to provide an improved splicing machine whereby a length of stock may be accurately gaged as it is placed in the machine so that it may be trimmed to a standard length before the ends are spliced together.

According to the invention, a standard splicing machine is provided with a plurality of spaced gaging points or surfaces. The spacing of the points or surfaces is such that the combined distance between them and the faces of the clamping jaws of the machine is equal to the desired trimmed length of the inner tube. When the length of tubular stock is placed in the machine, it is placed to correspond with the gage points or surfaces and the free ends are clamped in the clamping jaws of the machine. The excess material extending from the faces of the jaws is trimmed, leaving the desired standard length of stock.

Heretofore, the practice was to out the stock to a length equal to the standard desired length plus a small excess for trimming. In placing the stool; in the machine, the operator had to estimate the proper amount of the stock to be extended from the faces of the jaws to be trimmed. If he overestimated, the finished tube was shorter and therefore lighter than the desired standard. If he underestimated, the finished tube was longer and therefore heavier than the desired standard. Inner tubes, heretofore produced on standard machines were, therefore, often non-uniform both as to weight and length.

The present invention eliminates the possibility of error by the operator in placing the length of tube stock in the machine, inasmuch, as when the stock is placed in the machine to correspond to the gage points or surfaces and the ends clamped in the jaws of the machine, the tube will be accurately trimmed to the desired length.

Other objects and advantages of the present invention will become apparent from reading the following description taken in conjunction with the accompanying drawings, wherein:

Fig-1 is a partial plan view of a trimming and splicing machine incorporating the gaging points of the present invention; the gaging points being in the form of pins positioned to accommodate straight extruded tube stock,

Fig. 2 is a partial front elevational view of the trimming and splicing machine of Fig. 1,

Iii

Fig. 3 is a partial front elevational view similar to that of Fig. 2 showing a length of stock placed around the gage pins preparatory to closing the clamping jaws,

Fig. i is a partial front elevational view similar to that of Fig. 3 showing the clamping jaws closed and the ends of the tube stock trimmed,

Fig. 5 is a partial front elevational view similar to that of Fig. 4 showing the clamping jaws after they have been moved together to splice the ends of the tube stock,

Fig. 6 is a partial front elevational view similar to that of Fig. 5 showing the clamping jaws released and the carriages retracted after the splice has been completed.

7 is another partial plan view of a trimming and splicing machine incorporating the gaging points of the present invention; the gaging points being in the form of pins positioned to accommodate helically extruded tube stock,

Fig. 8 is a partial front elevational View of the trimming and splicing machine of Fig. 7,

Fig. 9 is a partial front elevational View similar to that of Fig. 8 showing a length of helically extruded tube stock placed around the gage pins preparatory to closing the clamping jaws,

Fig. 10 is a partial front elevational View similar to that of Fig. 9 showing the clamping jaws closed and the ends of the stock trimmed,

Fig. 11 is a partial front elevational view similar to that of Fig. 10 showing the jaws after they have been moved together to splice the ends of the tube stock,

Fig. 12 is a partial front elevational view similar to that of Fig. 11 showing the clamping jaws released and the carriages retracted after the splice has been completed,

Fig. 13 is another partial plan view of a trimming and splicing machine incorporating the gaging means of the present invention; the gaging means being in the form of pins and a curved gaging surface positioned to accommodate helically extruded tube stock,

Fig. 14 is a front elevational view of a trimming and splicing machine of Fig. 13,

Fig. 15 is a front elevational view similar to that'of Fig. 1e showing a length of helically extruded tube stock placed around the gage pins and in conformity with the carriages of a curved gage surface preparatory to closing the clamping aws,

Fig. 16 is a partial front elevational view similar to that of Fig. 15 showing the clamping jaws closed and the ends of the stock trimmed,

Fig. 17 is a partial front elevational View simi- 3 lar to that of Fig. 16 showing the jaws after they have been moved together to splice the ends of the tube stock,

Fig. 18 is a partial front elevational view similar to that of Fig. 17 showing the clamping jaws released and the carriages retracted after the splice has been completed,

Fig. 19 is a front elevational view showing another type of trimming and splicing machine incorporating the gaging means of the present invention; the gaging means being in the form of gage pins and a curved gage surface positioned to accommodate a section of straight extruded tube stock,

Fig. 20 is a side elevational view of the trimming and splicing machine of Fig. 19,

Fig. 21 is a partial front elevational view similar to that of Fig. 19 showing a piece of tube stock placed around the gaging means preparatory to closing the clamping jaws,

Fig. 22 is a partial front elevational view similar to that of Fig. 21 showing the clamping jaws closed and the ends of the tube stock trimmed,

Fig. 23 is a partial front elevational view similar to that of Fig. 22 showing the jaws after they have been moved together to splice the ends of the tube stock,

Fig. 24 is a partial front elevational view similar to that of Fig. 23 showing the clamping jaws released and the carriages retracted after the splice has been completed,

Fig. 25 is a sectional view taken on the line XXV QV of Fig. 1 showing the details of the roller gage pins, ratchet mechanism, pivotal mounting and latching arrangement,

Fig. 26 is a sectional View taken on the line XXVL-XXVI of Fig. 25 showing the details of the ratchet mechanism, and

Fig. 27 is a sectional view showing a modification of the latching arrangement shown in Fig. 25 for use in conjunction with the machine of Fig. 19.

Referring to the drawings and in particular to Figs. 1 and 2 of the drawings, there is shown a trimming and splicing machine incorporating the improvements constituting the present invention. The particular machine disclosed is of the type shown in U. S. Patent No. 2,576,940 to Alfred N. Iknayan and Alfred B. Clayton and assigned to the same-assignee as the present application, and reference is made to that patent for a detailed description of the construction of the machine.

Broadly the machine consists of a base Ill and two carriages II and I2 mounted for slidin movement toward and away from each other on ways l3 secured to the base In. The carriages are moved by an air cylinder l4 through bell cranks l and IS. A pair of clamping jaws are mounted on the top of each carriage. A stationary clamping jaw H and a movable jaw 18 are mounted on carriage l2 and a stationary jaw- 19 and a movable jaw are mounted on the carriage H. Jaw I8 is moved toward jaw H to clamp one end of a piece of inner tube stock therebetween by an air cylinder 2! and jaw 20 is moved toward jaw I9 to clamp the other end of a piece of stock therebetween by air cylinder 22.

A carriage 23 is mounted for movement horizontally between and at right angles to the carriages II and I2 and has secured thereto a pair of knives 24 and for severing the ends of the stock projecting from the faces of the clamps mounted on the-carriages H and l2.

The improvement constituting one modification of the present invention includes four spaced gage pins 26, 21, 2B and 29 as best shown in Fig. 2 around which a section of inner tube stock may be placed. Pins 26 and 21 are in the form of rollers as shown in detail in Fig. 25 and include a hollow sleeve 30 mounted for rotation in bearings 3i and 32 on a shaft 33. The sleeve 30 has a ratchet wheel 34 secured to one end and a tapered cap 35 threaded into the opposite end. The shaft 33 has a threaded end J8 by which it is secured to an arm 31. A pawl holder 38 is also threaded on end 36 and has secured thereto a spring pawl 39 (Fig. 27) which engages the teeth of the ratchet wheel 34 and allows the sleeve St] to turn freely in one direction but prevents the sleeve from turning in the other direction. Arm 3'! is secured to the end of a shaft 40 which is mounted for rotation in bearings carried by blOck 4|. Pivotal movement of arm 31 relative to block 4| is normally prevented by a spring pressed latch pin 42 carried by the block 4!, which engages a hole 43 in the arm 31. Pin 42 is urged toward latching position by compression spring 44.

Block 4| is slidably mounted on a slotted arm as (Fig. 2) secured to the carriage l l. The slotted arm 45 extends at right angles to the opposed faces of the clampin jaws l9 and 20. Block 4| is provided with a clamping screw 46 threaded into the topthereof, which engages the top of the arm 45 so that the block may be clamped at any desired point along the arm 45.

Pin 21 (Fig. 2) is similar to roller pin 26 and is mounted in a similar manner on a pivotal arm. The ratchet and pawl arrangement of pin 21, however, is arranged to allow the roller pin 2'! to turn in a direction opposite to that in which the pin 26 turns.

Pins 28 and 29 may also be similar to pin 26 or they may be merely straight non-rotatable pins. These pins are not mounted on an arm but are secured directly to the carriages II and I2 beneath the clamps. As will later be brought out, it is possible to eliminate pins 28 and 29 and utilize as gage surfaces the bottom surfaces Ho and [9a of the jaws l1 and [9 which project from the machine.

The latch pin 42 of pin 26 is disengaged from the arm 37 so that the arm 31 is free to pivot when the carriage H is moved inwardly by a cam bar 41 having a tapered end (Fig. 2) which engages a tapered flange 48 (Fig. 25,) secured to the pin 42 and forces the pin out of the hole 43 as the carriage H moves toward the center of the machine. The cam bar 41 is bifurcated and engages the flange 48 on either side of the pin 42. Cam bar 4'! is adjustably secured to an upright member 49 which in turn is secured to the base ll]. When the carriage ll moves inwardly it carries the flange 48 against the cam bar 41 so that the latch pin 42 is disengaged from the arm 31. Pin 2'! which is also mounted on a pivotally mounted arm is released in a similar manner as pin 26 by cam bar 50.

Referring to Figs. 3, 4, 5, and 6, there is shown the sequence of operations in trimming and splicing a piece of inner tube stock T in the machine of Figs. 1 and 2. In Fig. 3, the carriages H and I2 are in their retracted positions.- The pins 26 and 21 areadjusted and clamped so that the combined distances between the pins 26, 21, 28 and 29 and the faces of the clamping jaws l1 and I9 is equal to the desired length to which the tube is to be trimmed- A piece of inner tube stock T is placed in the machine around the gage pins 25, 27, 28 and 29 with the end portions thereof between the clamping jaws. The gage pins have a minimum length equal to the width of the tube section T so that the full width thereof is supported. The stock is pulled around the rollers until. all slack is removed from the section. The ratchet mechanism of the gage pins and 27 prevent the stock from slipping backwards. As can be seen in Fig. I, the rollers are knurled to increase the friction between the roller pins and the tube. No special care need be taken in placing the stock in the machine and the end portions of the tube section may overlap the faces of the jaws unequally as shown in Fig. 3. After the stock T is placed in the machine, the clamping jaws are closed to clamp the end portions of the tube stock therebetween as shown in Fig. 4 and the trimming knives 2s and 25 are moved in between the clamping jaws to trim the end portions of the tube stock T flush with the opposed faces of the clamping jaws II and IQ. As sotrimmed. the tube section T is of the correct standard length.

As shown in Fig. 5, after the tube has been accurately trimmed to length, the carriages I I and !2 are moved together to bring the freshly cut ends of the tube stock T into abutting engagement to form a splice. As the carriages are moved together, the flange 48 (Fig. 25) on the latch pin' 42 of gage pin 26 is engaged by the cam bar 41 and pin 42 is thereby disengaged from the pivot arm 31 so that the arm 31 and the gage pin 26 secured thereto is free to pivot. In a similar manner the gage pin 21 is unlatched by the cam bar 50.

After the splice is completed, the clamping jaws are released and the carriages are retracted as shown in Fig. 6. As the carriages are retracted, the pins 25 and 21, being unlatched, pivot inwardly under the influence of the spliced tube so that the tube is not stretched. When the spliced tube is removed, the pins fall back by gravity to the position as shown in Fig. 3 and the arms 31 engaged by the latch pins to again lock them in this position preparatory to another sequence of operation.

If no pins 28 and 29 are provided, the bottom surfaces E111 and I9a of the jaws I? and I9 may be utilized as gage surfaces by placing the tube section '1 in contact with these surfaces as shown by the dotted lines in Fig. 3. The sequence of operation is otherwise the same as above described.

The above-described embodiment of the invention is for use in trimming and splicing what is commonly known as a conventional or straight extruded tube. In Figs. 7 and 8 there is shown a modification of the present invention adapted to be used in trimming and splicing what is known as a helical tube. This name is used because the tube stock is formed as a helix having the general dimensions of the finished tube. Such a tube section is shown and described in United States Patent No. 2,423,147, to Hinman.

This modification as applied to the same machine as shown in Fig. 1, includes gage pins 5|,

52, 53, and as shown in Figs. 7 and 8 around which a section of inner tube stock is placed. The pins 5| and 52 are identical to pins 26 and TI previously described, and includes identical ratchet mechanisms. Pins 55 and 5 5 are identical to pins 28 and 29 previously described. Pin 5| is secured directly to a bracket 55 which in turn is secured to the carriage II and pin 52 is secured directly to a bracket 56 secured to the carriage I2. The pins 53 and 54 are secured to carriages II and I2 respectively, beneath the clamping jaws I1 and I9. Slots as shown at 51 and 58 may be provided in the brackets 55 and 56 to provide for adjustment of the positions of the pins 5| and 52. no pivotal arm and latch arrangement is necessary in this embodiment of the invention.

The brackets 55 and 56 are bent forwardly as best seen in Fig. 7 so that the pins 5| and 52 extend at an angle to the opposed faces of the clamping jaws I1 and I9. The angle corresponds to the angle of the helical tube section to be trimmed and spliced.

Referring to Figs. 9, 10, 11, and 12, there is shown the sequence of operations in trimming and splicing a piece of helical tube stock H in the machine of Figs. 7 and 8. As in the modification of Figs. 1 and 2, the gage pins are adjusted so that the combined distances between them and the faces of the clamping jaws I! and I9 is equal to the desired trim length of the tube section.

Referring to Fig. 9, the tube section H is placed around the gage pins 5|, 52, 53 and 55 and pulled tight to remove all slack and the end portions thereof placed between the clamping jaws I! and I8 and I9 and 29. The end portions are then clamped between the clamping jaws and trimmed flush with the faces of the jaws as shown in Fig. 10. The carriages Ii and I2 are then moved together to splice the freshly cut ends as shown in Fig. 11. When the splice is completed andthe carriages II and I2 are retracted, the tube section H slips off the ends of the gage pins 5| and 52 because of the angle at which they extend as shown in Fig. 12, and whereby the spliced tube section is thereby prevented from being stretched when the carriages II and I2 are retracted.

Pins 53 and 54 may be eliminated and the bottom surfaces I Ia and I9a of the jaws I! and I9 may be used as gage surfaces in the manner previously described in conjunction with the modification of Figs. l-6.

Referring to Figs. 13 and 14 there is shown a still further modification of the invention. This modification is similar to that shown in Figs. 7 and 8. In this modification however, the lower gage pins 53 and 54 of Figs. '7 and 8 are eliminated and two curved plates 59 and 60 are provided beneath the jaws I! and I9. The degree of curvature of the plates is made to correspond to the curvature of the inner tube stock when it is draped around the gage pins.

The plates 59 and 69 are adjustably secured to a support 5| secured to the base III by means of bolts 62 which extend through slots 63 in the plates. By this arrangement the spacing between the plates 59 and 59 can be adjusted to accommodate various size tubes.

Referring to Figs. 15, 16, 17 and 18 there is shown the sequence of operations in trimming and splicing a piece of inner tube stock H in the machine of Figs. 13 and 14. In Fig. 15, the carriages are in their retracted position. The gage pins 5! and 52 and the gage plates 59 and 60 are adjusted so that the combined distances between them and the opposed faces of the clamping jaws II-and I9 is equal to the desired length to which the tube is to be trimmed.

A piece of inner tube stock H is placed in the machine around the gage pins 5| and 52 with the end portions in the clamps I? and I9. The stock is pulled around the gage pins until all slack is removed and the tube section conforms to the curvature of the plates 59 and 69. After the stock As will be later brought out;

placed in the machine, the clamping jaws are closedyas shown in Fig. l6 to clamp the end portions of the tube stock therebetween and the trimming knives 24 13.104125 are :moved in between the clamping jaws to trim the end portions oi the, tube stock extending from the opposed .faces ofthe clamping jaws. As so trim-med the tube section H .is of the correct standard length.

Asshown in Fig. 1 7 after the tube section 'has been accurately trimmed to length, the carriages are moved-together to bring the freshly cut ends of thetube stock -1 ends into abutting engagemerit to form a splice.

After the splice is completed, the clamping jaws are released and the carriages retractedjasshown Fig. 18. As the carriages retract, the spliced tube section slip-01f the ends of the gage pins 51 and 52 in the manner as previously-described incoirjunction with themodification of Figs. 7-12.

Referring to Figs. '19 and 20, there is shown anotheriembodimentof the present invention as applied toanothertype ofconventional trimming and splicing machine. The particular splicing imach-me shownin Figs. 19 and 20-is of the type diSClOSGdjiIl U. S. Patent No. 2,024,577to Haase,

and reference is-made thereto for details of the construction thereof.

Broadly,this-machine-consists ofa base 62 and .aspair of carriages 63 and 6E movable towards and-awa-y from each .other on a dovetail bearing-way 65 secured-to the base 52. Carriage t4 hasa stationary jaw-Biand a pivoted jaw 61 secured thereto. -Pivoted jaw 61 is pivoted towardijeizw 66;to clamp the end portion of a piece ofjinner tube'stock by meansof an air cylinder 68. Carriage .83 is provided with a similar stationary clamping jaw 69 and a pivoted clamping jaw =10 operated by an air cylinder (not shown) similar to aircylinder 68.

A. -.pair of trimming knives H and 12 are \mounted directly above the clamping jaws and -are=moved 'downwardly between the jaws by an air cylinder 73 to trim the end .portionsof apiece *OfiStOCik extending from the facesof the jaws.

The improvement constituting a further modificationbf the present invention includes a pair ofg'age pins 1'4 and 15 similar .to gage pins --26 and 21previously described. Thepins Hand 15 are mounted on arms 16 and 13 respectively, which in turn are adjustably and pivotally mounted-(1nbrackets 7B and 19 respectively. =Brackets i'i-8 and 19 are'attached to a stationary upright framework member Bil (Fig. 20) Which alsozsupports the air cylinder 13.

Cam bars iii and 82 similar to cam bars 43' andfill .of Fig.2 are mounted on carriages=63aand 'fid respectively. In this embodiment as'cam bars 4H and-82 rather than the pins 1'4 and '15 are mounted on the carriages, the latching arrange- :ment fislslightly modified as shown in Fig. 26. Ascan'be seen by-reference to this-figure, a spring -d-4iisimilar to spring 44 of Fig. is placed on the opposite side of the flange 58 from that shown-in Fig. 25 .so that the latch pin 42' is nor- :mally urgedby thespring'to an unlatchedposi- =tion. Thecam bar 82 .byengagement with the flange 48' forces the latch .pin #2 into engagement with the pivotally mounted arms while the carriages E3 and 64 are in retracted positions. When @thecarriages are moved toward each other, carrying with them the cam bars 8! 'and82, itheilatch pin 42' is released and is urged-to nonla-t'ching position by the spring 44 :so that the arms '56 and 1-7 are free to pivot in asimilar manner as previously *described in conjunction 8 with the gage .pin 26.. The gage pins 14 and 15 and their mountings are otherwise the same as gage pin =26 and include .a ratchet and pawl arrangement.

The ratchetand .pawl arrangement for gage pin M is .set to allow .the pin to rotate only .in a clockwise direction as viewed in Fig. 19 and the ratchet and pawl arrangement for gage pin '15 is set to'allow the pin to rotate only .in a counter-clockwise direction.

.A-shelf-like .arcuate plate 83 is secured to the stationary vertical frame member .80 directly above -and-spaced from the clamping jaws. .The plate .83 .hasaminimum widthequal to the width of .thestock to be trimmed.

Referring to Figs. 21, 2'2, 23 and ,24, there is shown the sequence -.of operations in trimming apiece of stock T in the machine disclosed in Figs. .19.-and 20.. In Fig. 21 the carriages 6.3 and 54 .are in their retracted position. Pins 14 and 15 have been adjusted and clamped so that the combined distance between the pins i i and 15, the plate 8-3 and the opposed facesof the clamping jaws fieand 69 is equal to the desired trim length of the tubesection. .In the retracted position of the carriages 63 and 6d the cam bars .8! and82 engage the flange 48 of the latch pin 42 to hold it in locking engagement with the arms Miami 11 .so that the arms are held in the position shown in Figs. 19 and 21. The tube section T is placed around the .pins Hand 15 and-over the-plate 83land the end portions thereof are placed between the clamping jaws E6 and 69. The end portions extending from the faces of thejawsiare then-clamped between the clamping jaws and trimmed flush with the face of the jaws as shown .in Fig. v22.

The carriages .63 and Mare then moved together to splice the freshly cut ends of the tube section '1 as shown-in .Eig. 24. As the carriages .GSand 64 move inwardly, the cam bars 8| and 82 whichareattached thereto release the latching pins 42 so that the arms 16 and .H and the gage .pins M and 15 attached thereto may pivot quence of operations.

:Having thus described our invention, what we claim and desire to protect by Letters Patentrisz :1. A-machi-ne for trimming apiece of flexible stock to -:a predetermined length and splicing the ends-togethericomprising, a'pair of-carriages movable toward and away from each other, a clamp mounted on (each carriage for separately clamping-each endiportion 'of thestock with gportions of the endsthereof extending from-opposed facesof theclamps, severing means movable between the opposed faces of the clamps for trim- ;mingtthe ends-of-the stock extending 'fromsaid opposed faces, a pin of substantial length secured to and extending from the machine on each side of said clamps remote fromsaid opvposed :faces around which the stock .is adapted to be placed,.-a;membersecured-to and projecting from the machine in substantially the same direction as said pins at 'a point spaced from said pins which the stock is adapted to engage, the combined distances between said pins, said member, and the opposed faces of the clamps be ing of a predetermined length whereby when said stock is placed in said machine around said pins and in contact with said member and the ends thereof clamped in said clamps, said severing means will. trim the stock to a predetermined length and when said carriages are moved together the trimmed ends of the stock will be forced into abutting engagement to thereby form a splice.

2. A machine for trimming a piece of flexible stock to a predetermined length and splicing the ends together comprising, a pair of carriages movable toward and away from each other, a clamp mounted on each carriage for separately clamping each end portion of the stock with portions of the ends thereof extending from opposed faces of the clamps, severing means movable be tween the opposed faces of the clamps for trimming the ends of the stool: extending from said opposed faces, a pin of substantial length secured to and extending from the machine on opposite sides of said clamps remote from said opposed faces around which the stock is adapted to be placed, said pins extending from said machine at an angle towards each other, a member opposed faces of the clamps being of a predeterl mined length whereby when said stock is placed in said machine around said pins and in contact with said member, and the ends thereof clamped in said clamps, said severing means will trim the stock to a predetermined length and when said carriages are moved together the trimmed ends of the stock will be forced into abutting engagement to thereby form a splice.

3. A machine for trimming a piece of flexible stock to a predetermined length and for splicing the ends of the stock together comprising, a pair of carriages movable toward and away from each other, a clamp mounted on each carriage for separately clamping each end portion of the stock with portions of the ends thereof extending from opposed faces of the clamps, severing means movable between the opposed faces of the clamps for trimming the ends of the stock extending from said opposed faces of the clamps, a roller of substantial length attached to and extending from b said machine on each side of said clamps remote from said opposed faces around which the stock .is adapted to be placed, means for allowing only unidirectional rotation of said rollers, a member secured to and projecting from the machine in substantially the same direction as said rollers at a point spaced from said rollers which the stock is adapted to engage, the combined distance between said rollers, said member, and the opposed faces of the clamps being of a predetermined length whereby when said stock is placed in said machine around said rollers, and in contact with said member and the ends thereof clamped in said clamps, said severing means will trim the I stock to a predetermined length and when said carriages are moved together the trimmed ends ofthe stock will be forced into abutting engagement to thereby form a splice.

4. A machine for trimming apiece of flexible stock to a predetermined length and splicing the v ends together comprising, a pair of carriages movable toward and away from each other, a clamp mounted on each carriage for separately clamping each end portion of the stock with portions of the ends thereof extending from opposed faces of the clamps, severing means movable between the opposed faces of the clamps for trimming the ends of the stock extending from said opposed faces of the clamps, a pin of substantial length attached to and extending from the machine on each side of said clamps remote from said opposed faces, means mounting said pins for movement in the direction of movement of the movable carriages, means for locking said pins in one position, means for disengaging said looking means when said carriages are moved towards each other to free said pins for movement in the same direction as said movable carriages, a member secured to and projecting from the machine in substantially the same direction as said pins at a point spaced from said pins, the combined distances between said pins, said member, and the opposed faces of the clamps being of a predetermined length whereby when said stock is placed in said machine around said pins and in contact with said member and the ends thereof clamped in said clamps said severing means will trim the stock to a predetermined length and when said carriages are moved together the trimmed ends of the stock will be forced into abutting engagement to thereby form a splice.

5. A machine for trimming a piece of flexible stock to a predetermined length and splicing the ends together comprising, a pair of carriages movable towards and away from each other, a clamp mounted on each carriage for separately clamping each end portion of the stock with portions of the ends thereof extending from opposed faces of the clamps, severing means movable between the opposed faces of the clamps for trimming the ends of the stock extending from said opposed faces of the clamps, an arm pivotally attached to the machine on each side of said clamps remote from said opposed faces of the clamps, a pin of substantial length secured to the free end of each arm and extending therefrom around which the stock is adapted to be placed, means for locking said arms against pivotal movement, means for disconnecting said locking means when said carriages are moved together to free said arms for pivotal movement, a member secured to and projecting from the machine in substantially the same direction as said pins at a point spaced from said pins, the combined distance between said pins, said member, and the opposed faces of the clamps when the carriages are spaced apart being of a predetermined length whereby when said stock is placed in said machine around said pins, and in contact with said member and the i ends thereof clamped in said clamps, said severing opposed faces of the clamps, severing means movable between the opposed faces of the clamps for trimming the ends of the stock'extending fromsaid opposed faces, an arm pivotally at- 1 1 tached at onev end to each-carriage on eachside of said clamps remote" from said opposed: faces*,,a pin of substantial length secure'drto the free end of each arm and extending therefrom around which the stock is adapted: to be placed, means for locking said arms against pivotal movement, means for disconnecting said locking means when said carriages are moved tegether to tree said arms for pivotal movement, amember secured to and projecting from the machine in substantially the same direction as said pins at a point spaced from said pins, the combined distances between said pins, said member, and the opposed faces of the clamps when the carriages'arespaced apart being of a predetermined length whereby when said stock is placed in said machine around said pins, and in contact with said member, and the" ends thereof clamped in said clamps, said severing means will trim thestock to a predetermined length and when said carriages are moved 12 together the: trimmed ends of: the stock will be forced intd abutting engagement to thereby form asplice.

ALFRED B. CLAYTON.

THOMAS O. HALE.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,230,319 Paulson et a1 June 19, 1917 1,920,258 Hardenbrook Aug. 1, 1933 2,024,577 Haase Dec. 17, 1935 2,072,106 Fitzsimmons Mar. 2, 1937 2,118,278 Tucker May 24', 1938 2 ,201,135 Evans May 21, 1940 2,254,596 Breth et a1. Sept. 2, 1941 2,273,463 Campbell et al. Feb. 17, 1942 2,516,602 Snyder July 25, 1950 

